概覽

Guardian Technology™ Platform

Proprietary suite of enterprise features and endurance enhancement technologies make the most cost-effective NAND flash enterprise-ready.

Guardian Technology™ Platform

Introduction

Due the industry’s push to smaller lithography in the roadmap, the cost of NAND has continued to decrease. However, with each drop in the process node, endurance and reliability of the NAND flash decreases, going against the needs of enterprise environments where data reliability and integrity are critical.

Historically, the issue of endurance and reliability was addressed by adding Error Correcting Code (ECC) capability to the SSD controller. This approach is no longer sufficient as enterprise environments require higher endurance, predictable performance and reliability. To make SSDs viable in the data center, a new approach to overcoming NAND flash’s inherent endurance and reliability limitations is required so that enterprise-grade SSDs can become both more cost-effective and meet enterprise application requirements.

Guardian Technology™ Platform

The award-winning Guardian Technology Platform from SanDisk® is a proprietary suite of enterprise features and endurance enhancement technologies designed to make the most cost effective NAND flash enterprise ready. Because of SanDisk’s vertical integration and ownership of the flash, the Guardian Technology Platform and NAND have been designed to work seamlessly with each other, taking full advantage of the endurance, performance and reliability enhancements the platform provides.

SanDisk’s Guardian Technology Platform is comprised of the following technologies:

FlashGuard™ Technology reliably extracts significantly more usable life from MLC flash than provided by the standard specifications of the flash;

DataGuard™ Technology provides full data path protection ensuring that user data will be safe throughout the entire data path, and provides the ability to recover data from failed page and NAND blocks;

EverGuard™ Technology prevents the loss and corruption of user data during unexpected power interruptions.